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A python application that detects and highlights the heart-rate of an individual (using only their own webcam) in real-time.

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webcam-pulse-detector

UPDATE: Stand-alone (no dependancy) precompiled application now available!

  • Download for Windows 7 and 8: webcam-pulse-detector_win.zip (42 Mb)
  • Download for Mac OSX 10.6 (and later): webcam-pulse-detector_mac.zip (21 Mb)
  • Debian/Ubuntu/Mint Linux: Coming very soon. For now, it is recommended that you run from source on the no_openmdao branch if you just want to test things out.

The application can be run by simply executing the binary contained in the zip file for your platform. This code can also be run from source by following the instructions below.


A python code that detects the heart-rate of an individual using a common webcam or network IP camera. Tested on OSX 10.7 (Lion), Ubuntu 13.04 (Ringtail), and Windows 7.

Inspired by reviewing recent work on Eulerian Video Magnification, with motivation to implement something visually comparable (though not necessarily identical in formulation) to their pulse detection examples using Python and OpenCV (see https://github.com/brycedrennan/eulerian-magnification for a more general take on the offline post-processing methodology). This goal is comparable to those of a few previous efforts in this area (such as https://github.com/mossblaser/HeartMonitor).

This code was developed at NASA Glenn Research Center in support of OpenMDAO, under the Aeronautical Sciences Project in NASA's Fundamental Aeronautics Program, as well as the Crew State Monitoring Element of the Vehicle Systems Safety Technologies Project, in NASA’s Aviation Safety Program.

A list of other open-source NASA codes can be found at code.nasa.gov.

How it works:

This application uses OpenCV to find the location of the user's face, then isolate the forehead region. Data is collected from this location over time to estimate the user's heart rate. This is done by measuring average optical intensity in the forehead location, in the subimage's green channel alone (a better color mixing ratio may exist, but the blue channel tends to be very noisy). Physiological data can be estimated this way thanks to the optical absorption characteristics of (oxy-) haemoglobin (see http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-16-26-21434).

With good lighting and minimal noise due to motion, a stable heartbeat should be isolated in about 15 seconds. Other physiological waveforms (such as Mayer waves) should also be visible in the raw data stream.

Once the user's heart rate has been estimated, real-time phase variation associated with this frequency is also computed. This allows for the heartbeat to be exaggerated in the post-process frame rendering, causing the highlighted forehead location to pulse in sync with the user's own heartbeat.

Support for detection on multiple simultaneous individuals in a single camera's image stream is definitely possible, but at the moment only the information from one face is extracted for analysis.

The overall dataflow/execution order for the real-time signal processing looks like:

Alt text

This signal processing design is implemented in the openMDAO assembly object defined in lib/processors.py.

The definition of each component block used can be found in the source files lib/imageProcess.py, lib/signalProcess.py, and lib/sliceops.py. The @bin and @bout blocks in the above graph denote assembly-level input and output.

Requirements:

Quickstart:

  • run get_pulse.py to start the application
python get_pulse.py
  • To run on an IP camera, set the url, user, and password strings on line 134 of get_pulse_ipcam.py, then run:
python get_pulse_ipcam.py

This was tested on a Wowwee Rovio.

  • If there is an error, try running test_webcam.py in the same directory to check if your openCV installation and webcam can be made to work with this application.

Usage notes:

  • When run, a window will open showing a stream from your computer's webcam
  • When a forehead location has been isolated, the user should press "S" on their keyboard to lock this location, and remain as still as possible (the camera stream window must have focus for the click to register). This freezes the acquisition location in place. This lock can be released by pressing "S" again.
  • To view a stream of the measured data as it is gathered, press "D". To hide this display, press "D" again.
  • The data display shows three data traces, from top to bottom:
    1. raw optical intensity
    2. extracted heartbeat signal
    3. Power spectral density, with local maxima indicating the heartrate (in beats per minute).
  • With consistent lighting and minimal head motion, a stable heartbeat should be isolated in about 15 to 20 seconds. A count-down is shown in the image frame.
  • If a large spike in optical intensity is measured in the data (due to motion noise, sudden change in lighting, etc) the data collection process is reset and started over. The sensitivity of this feature can be tweaked by changing data_spike_limit on line 31 of get_pulse.py. Other mutable parameters of the analysis can be changed here as well.

TODO:

  • There have been some requests for a video demo
  • Instead of processing using the green channel alone, it is likely that some fixed combination of the statistics of the R,G,B channels could instead be optimal (though I was unable to find a simple combination that was better than green alone). If so, the mixing ratios might be determinable from the forward projection matrices of PCA or ICA operators computed on a set of mean value R,G, and B data gathered over a trial data set (and verified with different individuals under different lighting conditions).
  • Support for multiple individuals
  • Smoother tracking of data from foreheads, perhaps by buffering and registering/inverse-transforming image subframes

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A python application that detects and highlights the heart-rate of an individual (using only their own webcam) in real-time.

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